Poincaré invariance, the Unruh effect, and black hole evaporation

Alexandre Deur, Stanley J. Brodsky, Craig D. Roberts, Balša Terzić
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Abstract

In quantum field theory, the vacuum is widely considered to be a complex medium populated with virtual particle + antiparticle pairs. To an observer experiencing uniform acceleration, it is generally held that these virtual particles become real, appearing as a gas at a temperature which grows with the acceleration. This is the Unruh effect. However, it can be shown that vacuum complexity is an artifact, produced by treating quantum field theory in a manner that does not manifestly enforce causality. Choosing a quantization approach that patently enforces causality, the quantum field theory vacuum is barren, bereft even of virtual particles. We show that acceleration has no effect on a trivial vacuum; hence, there is no Unruh effect in such a treatment of quantum field theory. Since the standard calculations suggesting an Unruh effect are formally consistent, insofar as they have been completed, there must be a cancelling contribution that is omitted in the usual analyses. We argue that it is the dynamical action of conventional Lorentz transformations on the structure of an Unruh detector. Given the equivalence principle, an Unruh effect would correspond to black hole radiation. Thus, our perspective has significant consequences for quantum gravity and black hole physics: no Unruh effect entails the absence of black hole radiation evaporation.
庞加莱不变性、乌鲁效应和黑洞蒸发
在量子场论中,人们普遍认为真空是一个复杂的介质,其中充斥着虚拟粒子和反粒子对。对于经历匀加速的观测者来说,一般认为这些虚拟粒子会变成真实粒子,以气体的形式出现,其温度会随着加速度的增加而增加。这就是温儒效应。然而,我们可以证明,真空复杂性是一个伪命题,它是以一种并不明显强制执行因果关系的方式来处理量子场论而产生的。选择一种明显强制因果性的量子化方法,量子场论的真空就会变得荒芜,甚至没有虚拟粒子。我们证明,加速度对微不足道的真空没有影响;因此,在这样处理量子场论时,不存在恩鲁效应。由于表明存在乌鲁赫效应的标准计算在形式上是一致的,就其已完成的计算而言,一定有一个在通常分析中被忽略的抵消贡献。我们认为,这是传统洛伦兹变换对昂鲁探测器结构的动力学作用。根据等效原理,恩鲁赫效应相当于黑洞辐射。因此,我们的观点对量子引力和黑洞物理学有着重要的影响:没有乌鲁赫效应就没有黑洞辐射蒸发。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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